Correlation between the fatty acid composition and the activity of extracellular enzymes from Bacillus caldolyticus.

Abstract

Bacillus caldolyticus, grown at 70°C, produces a highly active extracellular amylase and protease. Both enzymes are formed either within the membrane, or at its inner surface. The activity of both extracellular enzymes was found to decline drastically when brain-heart infusion was omitted from the medium. A simultaneous increase of both enzymes inside the cell was observed. The shifting in extra- and intra-cellular activity was caused by changes in membrane composition due to the increase of anteiso-odd and n-even, and the decrease of iso-odd fatty acids. Membrane composition and enzymic activity could be influenced by the addition of either leucine or iso-leucine as precursors for the synthesis of branched-chain fatty acids: In presence of leucine the anteiso-odd and n-even fatty acids returned to their normal level, while the iso-odd fatty acids increased. Simultaneously the extracellular protease activity increased, and the intracellular activity declined. Growth in amylose-medium supplied with leucine lead to a decrease of both the intra- and extracellular amylase, and changes in the fatty acid composition of the membrane which could not be restored by transfer of the organism to complete media. Addition of iso-leucine first lead to a sharp decrease of extracellular protease and a drastic increase of intracellular protease activity, accompanied by an increase of anteiso-odd and n-even fatty acids, and a decrease of iso-odd compounds. After the second growth in presence of iso-leucine the intra- and extra-cellular protease activity was reversed, and thus showed a return to the starting situation. The reversal is accompanied by the preferential incorporation of fatty acids with a higher melting point into the membrane. Extracellular amylase activity was found to increase after the first growth with iso-leucine, and to decline sharply after the second culture with iso-leucine, together with a very high intracellular amylase activity at that point. Extra- and intra-cellular amylase activity both declined upon growth in complete medium, while the fatty acid distribution remained different from the initial composition.